S:B data: Confidence in proven performance of the kinase on specific substrates; no guessing

Phospho-motifs: Substrate sequences are provided

Assay options: Multiple substrates are tested so you can select the best peptide sequence and S:B for your kinase

For this antibody

10 μg = 1,562 assay points

100 μg = 15,625 assay points

In LANCE Ultra kinase assays, the binding of a Eu-labeled anti-phosphosubstrate antibody to the phosphorylated ULight-labeled substrate brings donor and acceptor molecules into close proximity. After irradiation of the kinase reaction at 320 or 340 nm, the energy from the Eu donor is transferred to the ULight acceptor dye, which in turn generates light at 665 nm. The intensity of the light emission is proportional to the level of ULight-substrate phosphorylation.

Application Note

Protein kinases play a major role in normal cellular functions such as cell proliferation, angiogenesis, and cell adhesion. Dysregulation of kinase activity has been shown to be associated with several human diseases including cancer, diabetes and morphological disorders. This makes kinases crucial targets for the discovery and development of new drugs.

Dysregulation of kinase activity has been shown to be associated with several human diseases including cancer, diabetes and morphological disorders. Because of their function, kinases are crucial targets for drug discovery. Analysis of the human genomehas revealed the existence ofnearly 520 genes encoding kinases.

LANCE® Ultra is a high through putscreening (HTS) technology platform optimized for homogeneous time-resolved fluorescence resonance energy transfer (TRFRET) kinase assays. The LANCEUltra donor dye is a Europium(Eu) chelate, and the acceptor dye is a proprietary small-molecular weight molecule called ULight™, a fluorescent dye with a red-shifted light emission.

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Brochure

Poster

Protein kinases play a major role in normal cellular functions such as cell proliferation, angiogenesis, and cell adhesion. Dysregulation of kinase activity has been shown to be associated with several human diseases including cancer, diabetes and morphological disorders. This makes kinases crucial targets for drug discovery. Analysis of the human genome has revealed the existence of nearly 520 genes encoding kinases.

Protein kinases are involved in the regulation of many aspects of the cellcycle, including proliferation, differentiation, secretion and apoptosis. Aberrant protein kinase expression or functioning is a cause orconsequence of many human diseases. As a result, kinases have become extremely popular for drug discovery programs and this has prompted the development of many kinase assay technologies suitable for highthrough putscreening (HTS).